DE892609C - Amplitude modulation arrangement - Google Patents

Description

Amplitude = modulation arrangement It is known for self-excited vibration generators an amplitude modulation by applying the modulation voltage to the grid or anode circle. However, there is such a modulation method the disadvantage that tearing occurs, d. H. that a continuous change the high frequency amplitude from zero to full amplitude value is not possible or the modulation energy to be recorded takes on very large values. It is further known to make a modulation with limiter elements, such that by limiting Means that are controlled by the modulation voltages, such as diodes or the like., a change is made to the oscillation to be modulated. With such a Circuit can e.g. B. the limiter element can be arranged in the anode oscillation circuit. This type of modulation has the advantage of a straight modulation curve. as The disadvantage is that they have a relatively large modulation power requirement required, because a certain amount of power is required when modulating the generator tube must be delivered to the limiter element (diode). A satisfactory modulation would exist if both a straight line characteristic curve through a modulation circuit as well as a low modulation power requirement for a continuous work could be achieved without tearing.

According to the invention, this is achieved by combining two types of modulation achieved, with a modulation with limiter elements the straightness of the modulation characteristic guaranteed, while the power requirement of the diode modulation is ensured by the second modulation is lowered. It is necessary with such a modulation arrangement that the Limiter modulation appears dominant over the other type of modulation.

In Fig. I an embodiment of the invention is shown. the Tube i with the oscillation circuit 2, 3 is fed back, and the oscillation thus generated is to be modulated by a modulation voltage. It is now according to the invention den, clamps g. and 5 the modulation voltage is supplied and thereby a grid modulation achieved, d. H. it becomes one through the changes in the tension of the lattice Change of the slope and thus the amplitude of the high-frequency oscillation made. At the same time, the terminals 6, 7 have the same modulation voltage that is the same in phase which effects a modulation with the aid of the limiting elements 8 and 9. This modulation with the help of the two diodes biased by the battery io 8, 9 acts so that the peaks of the high frequency oscillation according to the respective Modulation voltage, which acts as a bias voltage for the diodes 8, 9, varies in strength be limited. It is necessary that in order to achieve the desired effect the overall arrangement, the modulation by the diodes by means of the other type of modulation the grid voltage modulation predominates. Should z. B. the transmitter on 5o1 / o. his Power are modulated down, for example by the grid voltage modulation to provide a reduction of the high frequency oscillation to 55% and by the limiting modulation the high-frequency oscillation would then reach the required value of 50/0 maximum amplitude to be brought. It has thereby been achieved that the diodes 8 and 9 are only 5 % of the original high frequency voltage need to cut off compared to 5o0 / 0 with pure limiting modulation and thus a very low loss of power dieDio, den, 8; 9 occurs.

A second embodiment of the invention is shown in FIG. The generator tube ii generates the high-frequency oscillation with the aid of the feedback resonant circuit i2, 13. A diode 15, which is biased by a battery 17, is arranged between the grid and cathode of this tube. A resistor 1q is parallel to the diode. and the two terminals 18, to which the modulation voltage for the grid modulation is fed, are arranged in series with this. The terminals 16, which are in series with the diode 15, are supplied with the modulation voltage in the same phase as the terminals 18 to achieve the limiter modttation with the aid of the diode Area of lesser steepness is shifted, so that the amplitude of the high-frequency oscillation is reduced, while the residual peaks, which extend beyond the required level, are limited by the diode. This circuit also has the advantages of the two types of modulation, ie such a circuit works with a linear modulation characteristic, without tears and with a low consumption of modulation energy.

It is possible to modify such a circuit according to FIG. 2 in such a way that that the two terminals 18 are directly galvanically connected to each other, and the Modulation voltages are only fed to terminals 16. The simultaneous occurrence the grid voltage modulation and the diode modulation can be explained as follows will. As a result of the changing voltage at the terminals 16, the diode modulation occurs on. In this case, however, the rectified current flowing in the diode 15 generates am Resistor 14 also has a voltage drop, which is the operating point on the characteristic of the tube i i to move in the negative direction of the grating modulation range seeks. However, due to this shift of the operating point in the negative direction the high frequency oscillation is also decreased because the tube i i in one area lower mean slope works. By changing the grid voltage in this way the known grid voltage modulation results. Because of this negative shift of the working point is achieved at the same time that the positive tip of the Vibration only very little in the positive control area of the tube i i and thus also protrudes into the application area of the diode i5, so that of the tube 15 only a whole a small part of the amplitude peaks cut off to the required value are needed and thereby the required modulation energy to be applied to the terminals 16 becomes particularly small. With such a switching arrangement there is a modulation on the one hand by the action of the diode 15 and on the other hand by the setting variable grid voltage of the tube i i a. The circuit is to be dimensioned in such a way that that the effect of the diode modulation predominates, -was z. B. by a corresponding large dimensioning of the resistor 14 can be achieved. There are thus in a such a circuit combines the advantages of both types of modulation, which consist in that with the diode modulation small modulation voltages are necessary and none Tear phenomena occur while the advantage of a grid modulation is lower modulation power requirement is given.

It is within the scope of the invention, except for those listed as examples Modulation types, such as grating. and anode voltage modulation, other types of modulation, such as B. absorption modulation, with the limiter modulation at the same time apply.

Claims (1)

PATENT CLAIMS: i. Amplitude modulation arrangement, in particular for ultrashort waves, characterized in that both a modulation using a limiting device, in particular with the aid of diodes, and another Amplitude modulation, e.g. B. a grid or anode voltage modulation takes place and there is a predominant effect of limiter modulation. Arrangement according to Claim i, characterized in that the flow through the limiter device Currents, the voltages for controlling the second modulation device are generated. 3. Arrangement according to claim i and 2, characterized in that in the grid cathode line a high-frequency vibrator a two-pole tube with a parallel to their lying resistance is switched, which is suitably biased as a function on the signal amplitude, the amplitude peaks of the resistance occurring at the resistor AC voltage cuts off.